Demo: Spatial Modulation in Fluid Flow-Based Molecular Communication
Wolff P, Wille L, Lyer S, Kirchner J (2026)
Publication Language: English
Publication Status: Accepted
Publication Type: Unpublished / Preprint
Future Publication Type: Conference contribution
Publication year: 2026
Event location: St. John's
Abstract
Molecular Communication offers a promising paradigm for information transfer inside the human body by utilizing molecules or nanoparticles as information carriers through biological transport routes.
This work presents an experimental testbed for spatial modulation in fluid flow-based MC using superparamagnetic iron oxide nanoparticles as information carriers.
The system consists of four physically separated subchannels, surrounded by corresponding inductance sensors.
With this setup, information can be encoded, in a first demonstration, with space shift keying.
Hereby the symbols are encoded in the position of the active transmitter.
Authors with CRIS profile
Paul Wolff
Lehrstuhl für Intelligente Technische Elektronik und Systeme
Luiz Wille
Lehrstuhl für Intelligente Technische Elektronik und Systeme
Stefan Lyer
Professur für KI-gesteuerte Nanomaterialien
Involved external institutions
Germany (DE)How to cite
APA:
Wolff, P., Wille, L., Lyer, S., & Kirchner, J. (2026). Demo: Spatial Modulation in Fluid Flow-Based Molecular Communication. (Unpublished, Accepted).
MLA:
Wolff, Paul, et al. Demo: Spatial Modulation in Fluid Flow-Based Molecular Communication. Unpublished, Accepted. 2026.
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